Math 360, Fall 2021, Assignment 6

I tell them that if they will occupy themselves with the study of mathematics, they will find in it the best remedy against the lusts of the flesh.

- Thomas Mann, The Magic Mountain

Read:

1. Section 5.

Carefully define the following terms, then give one example and one non-example of each:

1. Symmetry (of a subset $A\subseteq\mathbb{R}^n$).
2. Symmetry group (of a subset $A\subseteq\mathbb{R}^n$).
3. Order (of a group; see Definition 5.3 on page 50 of the text).
4. $D_n$ (the dihedral group with order $2n$).
5. Subgroup (of a group).
6. Trivial subgroup (see Definition 5.5 on page 51 of the text).
7. Improper subgroup (see Definition 5.5 on page 51 of the text).
8. $\left\langle S\right\rangle$ (the subgroup generated by the subset $S$).
9. $\left\langle g\right\rangle$ (the cyclic subgroup generated by the element $g$; see Definition 5.18 on page 54).

Carefully state the following theorems (you do not need to prove them):

1. Theorem concerning unions and intersections of subgroups.

Solve the following problems:

1. Section 5, problems 1, 2, 8, 9, 11, 12, 21, 22, 23, 24, 25, and 36.
2. Prove that $(\mathbb{R},+)$ is not a cyclic group. (Hint: $\mathbb{R}$ is an uncountable set. Now look again at the list of elements of a cyclic subgroup. What can you conclude about the cardinality of a cyclic group?)

Questions:

Solutions:

Definitions:

1. Symmetry: the property that a mathematical object remains unchanged under a set of operations or transformations.
2. The symmetric group defined over any set is the group whose elements are all the bijections from the set to itself, and whose group operation is the composition of functions.
3. If $G$ is a group, then the order $|G|$ of $G$ is the number of elements in $G$. (Recall from

Section 0 that, for any set S, $|S|$ is the cardinality of $S$.)

Theorems:

Book Problems:

Other problems: